LECTURE.bib

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@MISC{rau1998statistical,
  AUTHOR = {Jochen Rau},
  TITLE = {Statistical Mechanics in a Nutshell},
  YEAR = {1998},
  NOTE = {Lecture Notes (Part I of a course on "Transport
                  Theory" taught at Dresden University of Technology,
                  Spring 1997),},
  URL = {http://arxiv.org/abs/physics/9805024},
  PS = {/sci_docs/physics/papers/arxiv/rau1998statistical.ps.gz},
  ROPSECTIONS = {LECTURE STATPHYS},
  ABSTRACT = {I give a concise introduction to some essential
                  concepts of statistical mechanics: 1. Probability
                  theory (constrained distributions, concentration
                  theorem, frequency estimation, hypothesis testing);
                  2. Macroscopic systems in equilibrium (macrostate,
                  thermodynamic variables, entropy, first law,
                  thermodynamic potentials, correlations); 3. Linear
                  response (Kubo formula). }
}


@ARTICLE{taylor1997teaching,
  AUTHOR = {Edwin F. Taylor and Stamatis Vokos and John M. O Meara and Nora S. Thornber},
  TITLE = {Teaching Feynman s sum-over-paths quantum theory},
  JOURNAL = {Computers in Physics},
  YEAR = {1998},
  VOLUME = {12},
  NUMBER = {2},
  PAGES = {190--199},
  ROPSECTIONS = {LECTURE QUANTPHYS},
  PDF = {/sci_docs/physics/papers/computerInPhysics/taylor1997teaching.pdf},
  ABSTRACT = {We outline an introduction to quantum mechanics based on the
sum-over-paths method originated by Richard P. Feynman. Students use
software with a graphics interface to model sums associated with
multiple paths for photons and electrons, leading to the concepts of
electron wavefunction, the propagator, bound states, and stationary
states. Material in the first portion of this outline has been tried
with an audience of high-school science teachers. These students were
enthusiastic about the treatment, and we feel that it has promise for
the education of physicists and other scientists, as well as for
distribution to a wider audience.  }
}

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@MISC{rivasseau1993geometrieDEA,
  AUTHOR = {V. Rivasseau},
  TITLE = {G{\'e}om{\'e}trie et physique},
  HOWPUBLISHED = {DEA physique th{\'e}orique, Polytechnique},
  YEAR = {1993-94},
  ROPSECTIONS = {PHYSX LECTURE},
  PS = {/sci_docs/physics/papers/misc/rivasseau1993geometrieDEA.ps.gz}
}